Description

This practical, lab-based approach to nano- and microfluidics provides readers with a wealth of practical techniques, protocols, and experiments ready to be put into practice in both research and industrial settings. The practical approach is ideally suited to researchers and R&D staff in industry; additionally the interdisciplinary approach to the science of nano- and microfluidics enables readers from a range of different academic disciplines to broaden their understanding.

Dr Rapp fully engages with the multidisciplinary nature of the subject. Alongside traditional fluid/transport topics, there is a wealth of coverage of materials and manufacturing techniques, chemical modification/surface functionalization, biochemical analysis, and the biosensors involved.

As well as providing a clear and concise overview to get started into the multidisciplinary field of microfluidics and practical guidance on techniques, pitfalls and troubleshooting, this book supplies:

A set of hands-on experiments and protocols that will help setting up lab experiments but which will also allow a quick start into practical work.

A collection of microfluidic structures, with 3D-CAD and image data that can be used directly (files provided on a companion website).

Key Features

A practical guide to the successful design and implementation of nano- and microfluidic processes (e.g. biosensing) and equipment (e.g., biosensors, such as diabetes blood glucose sensors).

Provides techniques, experiments, and protocols ready to be put to use in the lab, in an academic, or industry setting.

A collection of 3D-CAD and image files is provided on a companion website.

Readership

Engineers and scientists involved in designing and making use of nano/microfluidics techniques and equipment. Disciplines include engineering, materials science, biosensing, biochemistry, and medicine. Relevant to academia / research and industry